posted on 2020-08-19, 18:13authored byCarolin Paula, Dorothea Wisser, Mojca Rangus, Wilhelm Schwieger, Maximilian Hovestadt, Martin Kriesten, Kalju Vanatalu, Andres Oss, Mai-Liis Org, Ago Samoson, Martin Hartmann
Studying
complex processes in solid phases such as adsorption or
phase transitions in situ is the best way to obtain
detailed and realistic insights on a molecular level. Besides in situ X-ray diffraction techniques, magic angle spinning
(MAS) solid-state NMR spectroscopy is one of the most powerful analytical
techniques. The implementation of in situ and operando MAS NMR is however challenging and requires dedicated
hardware. We introduce here a new 4.0 mm wide-bore probe that allows
for a continuous and well-distributed flow of gaseous adsorbates or
reactants through the packed sample, as well as uniform heating of
the sample and spinning of the rotor at the magic angle. The combination
of both in situ MAS NMR and in situ powder X-ray diffraction allowed us to obtain new insights into
two phase transformation mechanisms in crystalline, porous materials, viz. that of aluminophosphate VPI-5 into AlPO4-8 and that of metal–organic frameworks from the MIL-53 family
during water adsorption and desorption.